JP2020204246A - Greening ecological wall having shade and energy saving function - Google Patents

Abstract

To disclose a greening ecological wall having a shade and an energy saving function.SOLUTION: The present invention discloses a greening ecological wall having a shade and an energy saving function, it comprises a wall body, a window sill is installed in the wall body, a left side of the window sill and indoor are in communication, a right side of the window sill and outdoor are in communication, a protective mechanism is installed at a right side surface of the wall body, the protective mechanism is situated below of the window sill, the protective mechanism can cultivate and protect a foliage plant and has a wind resistance function, a storm resistance function and a prevention mechanism against the foliage plant breakage due to external force. The present invention has a plurality of functions, is ecological and energy saving, serves for ecological greening, cultivates sentiment under an excellent shade function, integrates a plurality of functions, improves shading effect significantly, decreases indoor temperature effectively during summer and saves energy consumption in the building.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of sunshade technology for buildings, and specifically is a green ecological wall having a sunshade and energy saving function.

The sunshade design of buildings is represented by many modern buildings as an energy-saving and eco-friendly item. Sunshade design is mainly used to prevent sunlight from shining directly into the room and prevent the structure of the building from being damaged by overheating, as well as ecological and ecologicalization being advocated for more modern architecture. To go. By unifying the two, further effects can be achieved. Not only can you make cold architecture more lively, but you can also create a better sunshade effect with the aim of saving energy and ecological spirit. Therefore, it is necessary to design a wall body of this kind. The device will be embedded in the wall to give the wall of the building a shade effect and allow foliage plants to be planted on the wall as well. In addition, other devices must be designed to cool the walls quickly in the summer, and to make effective use of water sources and electricity in the spirit of energy saving. At the same time, protective measures need to be taken to prevent the planted foliage plants from being destroyed during the summer torrential rains.

Publication No. 110100609 of Chinese Patent Application

An object of the present invention is to provide a greening ecological wall having a sunshade and an energy saving function, and to solve the above-mentioned defects in the existing technology.

In order to solve the above problem, the green ecological wall having the sunshade and the energy saving function according to the embodiment of the present invention includes a wall body, and a window sill is installed in the wall body, and the left side of the window sill is installed. And the room are communicated with each other, the right side of the window sill and the outside world are communicated with each other, a protection mechanism is installed on the right side surface of the wall body, the protection mechanism is located under the window sill, and the protection mechanism Can cultivate and protect foliage plants, and has a windproof function, a rainstorm prevention function, and a function to prevent the destruction of foliage plants by external force. An elevating space is installed in the wall body, and the elevating space and the outside world are provided. An elevating mechanism that can control the vertical movement of the foliage plant is installed in the elevating space so as to communicate with the foliage plant, and the foliage plant can be artificially maintained through the elevating mechanism. A water storage space is installed on the lower side, a water discharge mechanism is installed inside the left side of the water storage space, the water discharge mechanism has a rainwater collection function and a watering function, and a control space is installed on the left side of the water storage space. Is installed, a power space is installed behind the control space, a power mechanism is installed in the power space, and the power mechanism can control two types of flooding effects, one for foliage plants. Water is sprinkled, the other is sprinkled on the wall surface, a power mechanism is installed in the window sill, and the power mechanism has a sunshade function and a power supply function, and is above the window sill. A transmission space is installed in the wall body in the above, the transmission space is installed so as to communicate with the outside world, a shade is installed on the right side of the transmission space, and a control is installed in the transmission space. A mechanism is installed, the control mechanism can control the opening and closing of the shade, and can also control the expansion and contraction of the power mechanism.

As a further technical plan, the protection mechanism includes a fixed cover fixedly installed on the right side surface of the wall body, a lower spherical space is installed in the fixed cover, and a rear wall of the lower spherical space is provided. The short shaft is rotatably installed, the first worm wheel is fixedly installed on the front side surface of the short shaft, and the portion of the short shaft extending rearward penetrates the rear wall of the lower spherical space. In addition, it is installed so as to extend to the outside world, a glass cover is fixedly installed on the rear side surface of the short shaft, an upper spherical space is installed in the glass cover, and the glass cover and the upper spherical surface are installed. A plurality of ventilation holes are uniformly arranged in the inner wall between the space and the space, a square space is installed on the left side of the elevating space, and the first motor is fixed in the bottom wall of the square space. The portion of the first motor that is fitted and extends upward extends into the square space, and the first umbrella gear is movably connected to the upper side surface of the first motor. A rectangular space is installed on the rear side of the square space, a thin shaft is rotatably installed between the rectangular space and the square space, and the thin shaft is installed so as to extend in the front-rear direction. A portion of the shaft extending forward extends into the square space, and a second umbrella gear is fixedly installed on the front side surface of the thin shaft, and the second umbrella gear and the first umbrella are fixedly installed. The portion of the thin shaft that is meshed with the gear and extends rearward extends into the rectangular space, and a second worm wheel is fixedly installed on the rear side surface of the thin shaft. The first worm is rotatably installed on the left wall of the rectangular space, the first worm and the second worm wheel are engaged with each other, and the portion of the first worm extending to the right is the rectangular space. It penetrates the right side wall of the worm and extends into the lower spherical space to mesh with the first worm wheel.

As a further technical plan, the elevating mechanism includes an elevating shaft rotatably installed on the top wall of the elevating space, a support block is installed on the outer periphery of the elevating shaft, and the support block and the elevating shaft are screwed together. It is connected by a mountain, and a cultivation pot can be placed on the upper side surface of the support block, the cultivation pot can cultivate foliage plants, and a water permeation hole is installed in the support block, and the water permeation hole is provided. The upper side of the cultivation pot and the inner wall of the cultivation pot are installed so as to communicate with each other, the lower side of the water permeation hole and the lower spherical space are installed so as to communicate with each other, and a belt is provided between the elevating space and the water storage space. A space is installed, and a portion of the elevating shaft extending downward penetrates the bottom wall of the elevating space and extends into the belt space, and a second pulley is further formed on the bottom surface of the elevating shaft. The portion of the first motor that is fixedly installed and extends downward extends into the belt space, and the first pulley is movably connected to the first motor so that the first pulley can be transmitted. A belt is attached between the second pulley and the second pulley.

As a further technical plan, the water discharge mechanism includes a pump that is fixedly fitted in the left inner wall of the water storage space, and is installed so as to communicate with the right side of the water pump and the water storage space. And the lower spherical space are installed so as to communicate with each other, the rear side of the water storage space and the water source of the outside world are communicated with each other, and a collection pipe is connected to the lower right side of the water storage space, and the right side of the collection pipe. The portion extending to is installed so as to penetrate the inner wall on the right side of the water storage space and extend to the outside world, and a collection container is fixedly installed on the right side of the collection pipe and on the left side of the pump. The water pipes are fixedly connected, the pump can communicate with the water pipes, the water pipes are fixedly fitted in the inner wall of the wall body, and the water pipes are installed so as to extend in the vertical direction. A water injection pipe is fixedly connected to the right side of the downward extending portion of the water pipe, and the right extending portion of the water injection pipe penetrates the inner wall of the wall body and reaches the outside. It is installed so as to extend, and a rotating nozzle is fixedly installed on the right side of the water injection pipe.

As a further technical plan, a storage space is installed on the rear side of the elevating space, the space is installed so as to communicate with the upper spherical space, and a slide space is installed on the left side of the space. A water pipe is slidably installed in the slide space, and the water pipe is installed so as to be able to communicate with an upwardly extending portion of the water pipe, and the left side surface of the water pipe and the slide space are installed. A spring is attached to the left wall of the water pipe, the portion of the water pipe extending to the right extends into the storage space, and the water pipe is located on the right side of the water pipe. It is fixedly installed, an eccentric ring space is installed above the slide space, a transmission shaft is rotatably installed on the rear wall of the eccentric ring space, and an eccentric ring is fixed on the outer circumference of the transmission shaft. The top surface of the water pipe is toothed, and the eccentric ring can mesh with the top surface of the water pipe.

As a further technical plan, a rotating shaft and a localization shaft are rotatably installed on the rear wall of the control space, and a first connecting rod is fixedly installed on the outer periphery of the rotating shaft, and on the outer periphery of the localization shaft. The second connecting rod is fixedly installed, a slide bush is slidably installed on the upper portion of the second connecting rod, and the first connecting rod and the slide bush are connected by a hinge to form the control space. A connecting space is installed in the lower right part of the above, a third connecting rod is slidably installed in the connecting space, and the third connecting rod and the second connecting rod are connected by a hinge, and the third connecting rod is connected. A piston is fixedly installed on the right side surface of the connecting rod, and the piston can be inserted into the water pipe.

As a further technical plan, the power mechanism includes a second motor fixedly fitted in the left inner wall of the power space, the right side of the second motor being misleadably connected to the power shaft. A first gear is fixedly installed on the outer periphery of the transmission shaft, and a portion of the transmission shaft extending rearward penetrates the rear wall of the eccentric ring space and extends into the power space, and further extends to the power space. A second gear is fixedly installed on the rear side surface of the transmission shaft, the second gear and the first gear are meshed with each other, and the right side surface of the power shaft and the ratchet set are fixedly connected to each other. A portion of the rotating shaft extending rearward penetrates the rear side wall of the control space and extends into the power space, and the rear side surface of the rotating shaft is fixedly connected to the ratchet set. There is.

As a further technical plan, the power mechanism includes a slide rail space installed in the upper wall of the window sill, and six slide blocks are slidably installed in the slide rail space, and the six slides are installed. Solar panels are rotatably connected to the bottom surface of the block, all the solar panels are slidably connected to the bottom wall of the window sill, and a conductive layer is installed in the bottom wall of the window sill. One side of the conductive layer is connected to the solar panel, the other side of the conductive layer is connected to the first motor, the second motor, and the pump, and is connected to the rear wall of the slide rail space. The stud bolts are rotatably installed, and the front extending portion of the stud bolts penetrates the six slide blocks and is rotatably connected to the front side wall of the window sill, and is located on the front side. The slide block is fixedly connected to the front side wall of the window sill, the slide block located on the rearmost side is connected to the stud bolt by a thread, and the other five slide blocks are idled with the stud bolt. , Crossed connecting rods are connected by hinges between the six slide blocks.

As a further technical plan, the control mechanism includes a driven shaft rotatably installed on the rear side wall of the transmission space, the outer circumference of the driven shaft is fitted with a sunshade, and the sunshade extends to the outside world. A third umbrella gear is fixedly installed on the outer circumference of the driven shaft, and a horizontal shaft is rotatably installed in the inner wall between the transmission space and the room. It is installed so as to extend in the left-right direction, the portion of the horizontal axis extending to the right extends into the transmission space, and the fourth umbrella gear is fixedly attached to the right side surface of the horizontal axis. The fourth umbrella gear and the third umbrella gear are meshed with each other, and a third worm wheel is fixedly installed on the outer periphery of the horizontal shaft located in the transmission space to meet the transmission space. It is installed so as to communicate with the slide rail space, and a portion of the third worm wheel extending downward extends into the slide rail space and meshes with the stud bolt, and the horizontal axis The portion extending to the left extends into the room, and the reel is fixedly installed on the left side surface of the horizontal axis, and the hand wheel is fixedly installed on the right wall of the room. A steel wire is attached between the hand wheel and the reel.

The present invention has the following positive effects: The present invention has a plurality of functions, is eco-friendly and energy-saving, is useful for ecological greening, cultivates emotions on an excellent awning function, and has a plurality of functions. The sunshade effect is greatly improved, the indoor temperature can be effectively lowered in the summer, the energy consumption in the building is reduced, and the protection mechanism is used to prevent the foliage plants from raining in the summer and external force. The elevating mechanism can take care of the foliage plants at any time, and the water discharge mechanism can water the foliage plants, water the walls to lower the temperature, and also sprinkle rainwater and water. The excess water left behind can be collected for better energy savings, and the solar panel in the electricity system can not only provide power to the entire device to solve energy problems, but also expand and contract the sunshade to create sunlight. It can block rainwater, can guide water to a device that collects rainwater, can interlock multiple mechanisms in the wall device, is cleverly designed, and has high performance.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the entire internal configuration of the present invention. FIG. 2 is an enlarged schematic diagram of the configuration of A in FIG. FIG. 3 is an enlarged schematic diagram of the configuration of B in FIG. FIG. 4 is a schematic diagram of the local configuration of the electric power mechanism in the present invention. FIG. 5 is a left side view of the power mechanism in the present invention. FIG. 6 is an enlarged schematic view of a rectangular space in the present invention.

With reference to FIGS. 1 to 6, the green ecological wall having the sunshade and the energy saving function according to the embodiment of the present invention includes the wall body 11, and the window sill 25 is installed in the wall body 11, and the window. The left side of the pedestal 25 and the room 10 are communicated with each other, the right side of the window pedestal 25 is communicated with the outside world, a protective mechanism 101 is installed on the right side surface of the wall body 11, and the protective mechanism 101 is the window pedestal 25. Located on the lower side, the protection mechanism 101 can cultivate and protect foliage plants, has a windproof function, a rainstorm prevention function, and a function of preventing foliage plant destruction by an external force, and is inside the wall body 11. The elevating space 30 is installed, and the elevating space 30 is installed so as to communicate with the outside world. In the elevating space 30, an elevating mechanism 102 capable of controlling the vertical movement of foliage plants is installed. The foliage plant can be artificially cared for through the foliage plant, a water storage space 53 is installed under the elevating space 30, a water discharge mechanism 103 is installed inside the left side of the water storage space 53, and the water discharge mechanism is installed. The 103 has a rainwater collecting function and a watering function, a control space 46 is installed on the left side of the water storage space 53, a power space 76 is installed on the rear side of the control space 46, and the inside of the power space 76. A power mechanism 104 is installed in the window sill 104, and the power mechanism 104 can control two types of flooding effects, one of which is watered on a foliage plant and the other of which is watered on a wall surface. A power mechanism 105 is installed inside, the power mechanism 105 has a sunshade function and a power supply function, and a transmission space 14 is installed in the wall body 11 above the window sill 25. The transmission space 14 and the outside world are installed so as to communicate with each other, a shade 16 is installed on the right side of the transmission space 14, a control mechanism 106 is installed in the transmission space 14, and the control mechanism 106 is installed. Can control the opening and closing of the sunshade 16 and can also control the expansion and contraction of the power mechanism 105.

Further, in one embodiment, the protection mechanism 101 includes a fixed cover 88 fixedly installed on the right side surface of the wall body 11, and a lower spherical space 35 is installed in the fixed cover 88. A short shaft 56 is rotatably installed on the rear wall of the lower spherical space 35, and a first worm wheel 55 is fixedly installed on the front side surface of the short shaft 56 and extends rearward of the short shaft 56. The existing portion is installed so as to penetrate the rear wall of the lower spherical space 35 and extend to the outside world, and further, a glass cover 87 is fixedly installed on the rear side surface of the short shaft 56, and the glass cover 87 is installed. An upper spherical space 31 is installed in the space, and a plurality of ventilation holes 32 are uniformly arranged in the inner wall between the glass cover 87 and the upper spherical space 31, and on the left side of the elevating space 30. A square space 57 is installed, a first motor 61 is fixedly fitted in the bottom wall of the square space 57, and a portion of the first motor 61 extending upward is the square space 57. A first umbrella gear 60 is movably connected to the upper side surface of the first motor 61, and a rectangular space 81 is installed on the rear side of the square space 57, and is connected to the rectangular space 81. A thin shaft 59 is rotatably installed between the thin shaft 59 and the square space 57, the thin shaft 59 is installed so as to extend in the front-rear direction, and a portion of the thin shaft 59 extending forward is the square space. A second umbrella gear 58 is fixedly installed on the front side surface of the thin shaft 59 extending into the 57, and the second umbrella gear 58 and the first umbrella gear 60 are in mesh with each other. A portion of the thin shaft 59 extending rearward extends into the rectangular space 81, and a second worm wheel 82 is fixedly installed on the rear side surface of the thin shaft 59 to form the rectangular space 81. A first worm 54 is rotatably installed on the left side wall, the first worm 54 and the second worm wheel 82 are meshed with each other, and the portion of the first worm 54 extending to the right is the rectangular shape. It penetrates the right side wall of the space 81 and extends into the lower spherical space 35 and meshes with the first worm wheel 55.
By the operation of the first motor 61, the second bevel gear 58 can be rotated, and the first worm 54 can be further rotated, whereby the glass cover 87 can be opened and closed.

Further, in one embodiment, the elevating mechanism 102 includes an elevating shaft 29 rotatably installed on the top wall of the elevating space 30, and a support block 34 is installed on the outer periphery of the elevating shaft 29. The support block 34 and the elevating shaft 29 are connected by threads, and a cultivation pot 33 can be placed on the upper side surface of the support block 34, and the cultivation pot 33 can cultivate foliage plants, and the support A water permeation hole 36 is installed in the block 34, and the upper side of the water permeation hole 36 is installed so as to communicate with the inner wall of the cultivation pot 33, and the lower side of the water permeation hole 36 and the lower spherical space 35 are A belt space 63 is installed between the elevating space 30 and the water storage space 53 so as to communicate with each other, and a portion of the elevating shaft 29 extending downward penetrates the bottom wall of the elevating space 30. A second pulley 65 is fixedly installed on the bottom surface of the elevating shaft 29, and a portion of the first motor 61 extending downward is the belt. A first pulley 62 is movably connected to the first motor 61, which extends into the space 63, and a belt 64 is mounted between the first pulley 62 and the second pulley 65.
By the operation of the first motor 61, the belt 64 can transmit power, whereby the elevating shaft 29 is rotated and the support block 34 is raised or lowered.

Further, in one embodiment, the water discharge mechanism 103 includes a pump 47 fixedly fitted in the inner wall on the left side of the water storage space 53, and the right side of the water pump 47 and the water storage space 53 communicate with each other. The water storage space 53 and the lower spherical space 35 are installed so as to communicate with each other, and the rear side of the water storage space 53 and the water source of the outside world are communicated with each other, and in the lower right side of the water storage space 53. The collection pipe 51 is connected, and the portion of the collection pipe 51 extending to the right is installed so as to penetrate the inner wall on the right side of the water storage space 53 and extend to the outside world, and further to the right side of the collection pipe 51. The collection container 52 is fixedly installed, the water pipe 48 is fixedly connected to the left side of the pump 47, the pump 47 can communicate with the water pipe 48, and the water pipe 48 is the inner wall of the wall 11. The water pipe 48 is fixedly fitted in the water pipe 48 so as to extend in the vertical direction, and the water injection pipe 49 is fixedly connected to the right side of the downward extending portion of the water pipe 48. The portion of the water injection pipe 49 extending to the right is installed so as to penetrate the inner wall of the wall body 11 and extend to the outside world, and a rotary nozzle 50 is further to the right side of the water injection pipe 49. Fixedly installed,
Rainwater is collected in the water storage space 53 through the collection container 52, and excess water that has flowed down after watering the foliage plants in the lower spherical space 35 is also collected, and the pump 47 is in the water storage space 53. With the water stored in the water, the rotating nozzle 50 can water the right side surface of the wall body 11 to lower the temperature.

Further, in one embodiment, a placing space 43 is installed behind the elevating space 30, the placing space 43 and the upper spherical space 31 are installed so as to communicate with each other, and the left side of the placing space 43. A slide space 40 is installed in the slide space 40, and a water pipe 42 is slidably installed in the slide space 40 so that the water pipe 42 can communicate with a portion of the water pipe 48 extending upward. A spring 41 is attached between the left side surface of the water pipe 42 and the left wall of the slide space 40, and the portion of the water pipe 42 extending to the right is the placing space 43. A watering nozzle 44 is fixedly installed on the right side of the watering pipe 42, and an eccentric ring space 37 is installed on the upper side of the slide space 40, after the eccentric ring space 37. A transmission shaft 39 is rotatably installed on the wall, an eccentric ring 38 is fixedly installed on the outer periphery of the transmission shaft 39, and a tooth is attached to the top surface of the water pipe 42. 38 can mesh with the top surface of the water pipe 42,
The rotation of the transmission shaft 39 causes the water pipe 42 to move to the right and the water nozzle 44 to be located above the foliage plant, and the water pipe 42 and the water pipe 48 communicate with each other. And sprinkled with water.

Further, in one embodiment, the rotating shaft 66 and the localization shaft 70 are rotatably installed on the rear wall of the control space 46, and the first connecting rod 67 is fixedly installed on the outer periphery of the rotating shaft 66. The second connecting rod 69 is fixedly installed on the outer periphery of the localization shaft 70, and the slide bush 68 is slidably installed on the upper portion of the second connecting rod 69, and the first connecting rod 67 is installed. And the slide bush 68 are connected by a hinge, a connecting space 72 is installed in the lower right side of the control space 46, and a third connecting rod 71 is slidably installed in the connecting space 72. The three connecting rods 71 and the second connecting rod 69 are connected by a hinge, a piston 73 is fixedly installed on the right side surface of the third connecting rod 71, and the piston 73 is inserted into the water pipe 48. It is possible,
The rotation of the rotating shaft 66 allows the third connecting rod 71 to move to the right, whereby the piston 73 is inserted into the water pipe 48, and the water pipe 48 and the water injection pipe 49 are connected to each other. Communication can be blocked.

Further, in one embodiment, the power mechanism 104 includes a second motor 79 fixedly fitted in the left inner wall of the power space 76, and a power shaft 80 is located on the right side of the second motor 79. The first gear 78 is fixedly installed on the outer periphery of the power shaft 80 so as to be transmitnably connected, and the portion of the transmission shaft 39 extending rearward penetrates the rear wall of the eccentric ring space 37. Moreover, a second gear 77 is fixedly installed on the rear side surface of the transmission shaft 39 extending into the power space 76, and the second gear 77 and the first gear 78 are in mesh with each other. The right side surface of the power shaft 80 and the ratchet set 99 are fixedly connected, and a portion of the rotating shaft 66 extending rearward penetrates the rear side wall of the control space 46 and is inside the power space 76. The rear side surface of the rotating shaft 66 is fixedly connected to the ratchet set 99.
The transmission shaft 39 or the rotation shaft 66 can be driven and rotated by the forward / reverse rotation of the second motor 79, whereby watering on the foliage plant or the wall surface can be controlled.

Further, in one embodiment, the power mechanism 105 includes a slide rail space 19 installed in the upper wall of the window pedestal 25, and six slide blocks 20 slide in the slide rail space 19. The solar panels 24 are rotatably connected to the bottom surfaces of the six slide blocks 20 so that the solar panels 24 can be slidably connected to the bottom wall of the window sill 25. A conductive layer 28 is installed in the bottom wall of the base 25, one side of the conductive layer 28 is connected to the solar panel 24, and the other side of the conductive layer 28 is the first motor 61 and the second motor. 79 and the pump 47 are connected, stud bolts 21 are rotatably installed on the rear wall of the slide rail space 19, and six slide blocks extend forward of the stud bolts 21. The slide block 20 which penetrates 20 and is rotatably connected to the front side wall of the window sill 25 and is located on the front side is fixedly connected to the front side wall of the window sill 25 and is located on the rearmost side. The slide block 20 is connected to the stud bolt 21 by a screw thread, the other five slide blocks 20 are engaged with the stud bolt 21, and an intersecting connecting rod 74 is provided between the six slide blocks 20. Connected with a hinge,
Due to the rotation of the stud bolt 21, the six slide blocks 20 are expanded to the right, whereby the solar panel 24 is expanded to the right, and the solar panel 24 is charged to the first motor 61 and the said. Electrical energy is provided to the second motor 79 and the pump 47.

Further, in one embodiment, the control mechanism 106 includes a driven shaft 17 rotatably installed on the rear side wall of the transmission space 14, and a sunshade 16 is mounted on the outer periphery of the driven shaft 17. The sunshade 16 is installed so as to extend to the outside world, a third umbrella gear 18 is fixedly installed on the outer periphery of the driven shaft 17, and inside the inner wall between the transmission space 14 and the room 10. A horizontal axis 13 is rotatably installed in the vehicle, the horizontal axis 13 is installed so as to extend in the left-right direction, and a portion of the horizontal axis 13 extending to the right extends into the transmission space 14. A fourth umbrella gear 15 is fixedly installed on the right side surface of the horizontal shaft 13, and the fourth umbrella gear 15 and the third umbrella gear 18 are in mesh with each other in the transmission space 14. A third worm wheel 12 is fixedly installed on the outer periphery of the horizontal shaft 13 located, and is installed so as to communicate with the transmission space 14 and the slide rail space 19, and is below the third worm wheel 12. The portion extending to the left extends into the slide rail space 19 and meshes with the stud bolt 21, and the portion extending to the left of the horizontal axis 13 extends into the chamber 10. A reel 22 is fixedly installed on the left side surface of the horizontal axis 13, and a hand wheel 26 is fixedly installed on the right wall of the room 10, and between the hand wheel 26 and the reel 22. A steel wire 23 is attached to the
By turning the hand wheel 26, the horizontal axis 13 can be rotated, whereby the shade 16 can be expanded, and at the same time, the stud bolt 21 can be rotated, whereby the solar panel 24 can be expanded.

At the time of use, the first motor 61 is operated, the first motor 61 rotates forward and is transmitted to the belt 64, whereby the elevating shaft 29 rotates and the support block 34 is moved upward, and at the same time, the thin shaft 59 Rotate, rotate the first worm wheel 53, and further rotate the minor axis 56, thereby opening the glass cover 87 and caring for the foliage plant as the support block 34 moves to the apex. After completion, the first motor 61 was rotated in the reverse direction, the support block 34 descended to the bottom, and at the same time, the glass cover 87 was closed, and when watering the foliage plant, the pump 47 and the second motor 79 The pump 47 sends water to the water pipe 48, the second motor 79 rotates forward to rotate the power shaft 80, and the transmission shaft 39 rotates, and the water pipe 42 is further driven to the right. If it is necessary to move to the direction, communicate with the water pipe 48, move the watering nozzle 44 above the foliage plant, sprinkle water, stop the second motor 79 after completion, and lower the temperature on the wall surface. , The second motor 79 is actuated, the second motor 79 rotates in the reverse direction, the rotation shaft 66 is rotated, whereby the third connecting rod 71 moves to the left, and the piston 73 moves to the left. The water pipe 48 and the water injection pipe 49 are communicated with each other to inject water, and if it is necessary to shade, the hand wheel 26 is rotated and the horizontal axis 13 is rotated, thereby expanding the shade 16. The rotation of the horizontal axis 13 further rotates the stud bolt 21, which allows the solar panel 24 to be unfolded, shaded, and provided with electrical energy throughout the device.

The present invention has the following positive effects: The present invention has a plurality of functions, is eco-friendly and energy-saving, is useful for ecological greening, cultivates emotions on an excellent awning function, and has a plurality of functions. The sunshade effect is greatly improved, the indoor temperature can be effectively lowered in the summer, the energy consumption in the building is reduced, and the protection mechanism is used to prevent the foliage plants from raining in the summer and external force. The elevating mechanism can take care of the foliage plants at any time, and the water discharge mechanism can water the foliage plants, water the walls to lower the temperature, and also sprinkle rainwater and water. The excess water left behind can be collected for better energy savings, and the solar panel in the electricity system can not only provide power to the entire device to solve energy problems, but also expand and contract the sunshade to create sunlight. It can block rainwater, can guide water to a device that collects rainwater, can interlock multiple mechanisms in the wall device, is cleverly designed, and has high performance.

Employees in the art will be able to clarify if they do not depart from the gist and ideas of the invention, and various modifications have been made to the above embodiments, all of which are within the scope of the invention. The protection plan of the present invention should be standardized on the request for rights of the present invention.

Claims (9)

A window sill is installed in the wall body including the wall body, the left side of the window sill is communicated with the room, the right side of the window sill is communicated with the outside world, and the right side surface of the wall body is communicated. A protection mechanism is installed, the protection mechanism is located under the window sill, and the protection mechanism can cultivate and protect foliage plants, and has a windproof function, a rainstorm prevention function, and a function to prevent foliage plant destruction by external force. An elevating space is installed in the wall body, and the elevating space is installed so as to communicate with the outside world, and an elevating mechanism capable of controlling the vertical movement of foliage plants is provided in the elevating space. It is installed, and the foliage plant can be artificially maintained through the elevating mechanism, a water storage space is installed under the elevating space, and a water discharge mechanism is installed inside the left side of the water storage space. The water discharge mechanism has a rainwater collection function and a watering function,
A control space is installed on the left side of the water storage space, a power space is installed on the rear side of the control space, a power mechanism is installed in the power space, and the power mechanism has two types of water discharge effects. It can be controlled, one is watered on foliage plants, the other is watered on the wall, a power mechanism is installed in the window sill, and the power mechanism has a sunshade function and a power supply function. A transmission space is installed in the wall body above the window sill, the transmission space is installed so as to communicate with the outside world, and a shade is installed on the right side of the transmission space. A control mechanism is installed in the transmission space, and the control mechanism can control the opening and closing of the sunshade, and can also control the expansion and contraction of the power mechanism. Green ecological wall to have. The protection mechanism includes a fixed cover fixedly installed on the right side surface of the wall body, a lower spherical space is installed in the fixed cover, and a short axis can rotate on the rear wall of the lower spherical space. A first worm wheel is fixedly installed on the front side surface of the short shaft, and a portion of the short shaft extending rearward penetrates the rear wall of the lower spherical space and extends to the outside world. A glass cover is fixedly installed on the rear side surface of the short shaft, an upper spherical space is installed in the glass cover, and an upper spherical space is installed between the glass cover and the upper spherical space. A plurality of ventilation holes are uniformly arranged in the inner wall, a square space is installed on the left side of the elevating space, and the first motor is fixedly fitted in the bottom wall of the square space. The portion of the first motor extending upward extends into the square space, and the first umbrella gear is movably connected to the upper side surface of the first motor, and the rear side of the square space. A rectangular space is installed in the space, a thin shaft is rotatably installed between the rectangular space and the square space, and the thin shaft is installed so as to extend in the front-rear direction, and is installed in front of the thin shaft. The extending portion extends into the square space, and a second umbrella gear is fixedly installed on the front side surface of the thin shaft, and the second umbrella gear and the first umbrella gear mesh with each other. A portion of the thin shaft extending rearward extends into the rectangular space, and a second worm wheel is fixedly installed on the rear side surface of the thin shaft, and the left wall of the rectangular space. The first worm is rotatably installed in the space, and the first worm and the second worm wheel are engaged with each other, and the portion of the first worm extending to the right penetrates the right wall of the rectangular space. The green ecological wall having a sunshade and an energy-saving function according to claim 1, wherein the green ecological wall extends into the lower spherical space and meshes with the first worm wheel. The elevating mechanism includes an elevating shaft rotatably installed on the top wall of the elevating space, a support block is installed on the outer periphery of the elevating shaft, and the support block and the elevating shaft are connected by threads. A cultivation pot can be placed on the upper side surface of the support block, the cultivation pot can grow foliage plants, and a water permeation hole is provided in the support block, and the upper side of the water permeation hole and the cultivation are provided. It is installed so as to communicate with the inner wall of the pot, the lower side of the water permeation hole and the lower spherical space are installed so as to communicate with each other, and a belt space is installed between the elevating space and the water storage space. A portion of the elevating shaft extending downward penetrates the bottom wall of the elevating space and extends into the belt space, and a second pulley is fixedly installed on the bottom surface of the elevating shaft. The portion of the first motor extending downward extends into the belt space, and the first pulley is movably connected to the first motor, and the first pulley and the second pulley are transmitted. The green ecological wall having a sunshade and an energy saving function according to claim 2, wherein a belt is attached between the two. The water discharge mechanism includes a pump that is fixedly fitted in the inner wall on the left side of the water storage space, is installed so as to communicate with the right side of the water pump and the water storage space, and the water storage space and the lower spherical space. Is installed so as to communicate with, and the rear side of the water storage space and the water source of the outside world are communicated with each other, a collection pipe is connected to the lower right side of the water storage space, and a portion of the collection pipe extending to the right. Is installed so as to penetrate the inner wall on the right side of the water storage space and extend to the outside world, a collection container is fixedly installed on the right side of the collection pipe, and a water pipe is fixedly installed on the left side of the pump. Connected, the pump can communicate with the water pipe, the water pipe is fixedly fitted in the inner wall of the wall body, the water pipe is installed so as to extend in the vertical direction, and the lower part of the water pipe. A water injection pipe is fixedly connected to the right side of the portion extending to the right side, and the portion extending to the right side of the water injection pipe is installed so as to penetrate the inner wall of the wall body and extend to the outside world. The green ecological wall having a sunshade and an energy saving function according to claim 3, wherein a rotary nozzle is fixedly installed on the right side of the water injection pipe. A storage space is installed on the rear side of the elevating space, the storage space and the upper spherical space are installed so as to communicate with each other, and a slide space is installed on the left side of the storage space in the slide space. Is installed so that the water pipe can be slidably installed, and the water pipe is installed so as to communicate with an upwardly extending portion of the water pipe, and the left side surface of the water pipe and the left wall of the slide space are connected to each other. A spring is attached between them, and the portion of the water pipe extending to the right extends into the storage space, and a water nozzle is fixedly installed on the right side of the water pipe. An eccentric ring space is installed on the upper side of the slide space, a transmission shaft is rotatably installed on the rear wall of the eccentric ring space, and an eccentric ring is fixedly installed on the outer periphery of the transmission shaft. The greening ecology having a sunshade and an energy saving function according to claim 4, wherein the top surface of the water pipe has teeth, and the eccentric ring can mesh with the top surface of the water pipe. wall. A rotating shaft and a localization shaft are rotatably installed on the rear wall of the control space, a first connecting rod is fixedly installed on the outer periphery of the rotating shaft, and a second connecting rod is fixedly installed on the outer periphery of the localization shaft. Is fixedly installed, a slide bush is slidably installed on the upper portion of the second connecting rod, the first connecting rod and the slide bush are connected by a hinge, and on the lower right side of the control space. A connecting space is installed, a third connecting rod is slidably installed in the connecting space, the third connecting rod and the second connecting rod are connected by a hinge, and the right side surface of the third connecting rod is connected. The green ecological wall having a sunshade and an energy saving function according to claim 5, wherein a piston is fixedly installed in the water pipe, and the piston can be inserted into the water pipe. The power mechanism includes a second motor fixedly fitted in the inner wall on the left side of the power space, a power shaft is movably connected to the right side of the second motor, and a second motor is connected to the outer periphery of the power shaft. A gear is fixedly installed, and a portion of the transmission shaft extending rearward penetrates the rear wall of the eccentric ring space and extends into the power space, and further extends to the rear side surface of the transmission shaft. A second gear is fixedly installed in the vehicle, the second gear and the first gear are meshed with each other, and the right side surface of the power shaft and the ratchet set are fixedly connected to the rear of the rotating shaft. The portion extending to the control space penetrates the rear side wall of the control space and extends into the power space, and the rear side surface of the rotating shaft is fixedly connected to the ratchet set. The green ecological wall having the sunshade and energy saving function according to claim 6. The power mechanism includes a slide rail space installed in the upper wall of the window sill, six slide blocks are slidably installed in the slide rail space, and six slide blocks are slidably installed on the bottom surface of the six slide blocks. In each case, the solar panels are rotatably connected, and the solar panels are slidably connected to the bottom wall of the window sill, and a conductive layer is installed in the bottom wall of the window sill. One side is connected to the solar panel, the other side of the conductive layer is connected to the first motor, the second motor, and the pump, and a stud bolt can rotate on the rear wall of the slide rail space. The portion of the stud bolt extending forward penetrates the six slide blocks and is rotatably connected to the front side wall of the window sill, and the slide block located on the front side is the window. The slide block, which is fixedly connected to the front side wall of the base and is located on the rearmost side, is connected to the stud bolt by a screw thread, the other five slide blocks are idled with the stud bolt, and the six slides are connected. The green ecological wall having a sunshade and an energy saving function according to claim 1, wherein crossing connecting rods are connected by hinges between the blocks. The control mechanism includes a driven shaft rotatably installed on the rear side wall of the transmission space, a shade is attached to the outer periphery of the driven shaft, and the shade is installed so as to extend to the outside world. A third umbrella gear is fixedly installed on the outer circumference of the driven shaft, a horizontal shaft is rotatably installed in the inner wall between the transmission space and the room, and the horizontal shaft extends in the left-right direction. The portion of the horizontal axis extending to the right extends into the transmission space, and the fourth umbrella gear is fixedly installed on the right side surface of the horizontal axis. The four umbrella gears and the third umbrella gear are meshed with each other, and a third worm wheel is fixedly installed on the outer periphery of the horizontal shaft located in the transmission space to form the transmission space and the slide rail space. Is installed so as to communicate with each other, and the downwardly extending portion of the third worm wheel extends into the slide rail space and meshes with the stud bolt to the left of the horizontal axis. The extending portion extends into the room, and a reel is fixedly installed on the left side surface of the horizontal axis, and a hand wheel is fixedly installed on the right wall of the room. The green ecological wall having a sunshade and an energy saving function according to claim 8, wherein a steel wire is mounted between the reel and the reel.

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